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As museums have taken on more complex roles in their communities and the number of museum stakeholders has increased to include a greater array of people, effective museum planning is more important than ever. The Manual of Museum Planning has become the definitive text for museum professionals, trustees, architects, and others who are concerned with the planning, design, construction, renovation, or expansion of a public gallery or museum. Rewritten and reorganized, the third edition features revised sections on planning for visitors, collections, and the building itself, and new sections on operations and implementation, which have become an essential part of the planning process. This new edition of the Manual of Museum Planning has been updated to meet the needs of professional museum practice in the 21st century and includes contributions by leading museum professionals. This manual is intended to be used as a guide for museum professionals, board members or trustees, government agencies, architects, designers, engineers, cost consultants, or other specialist consultants embarking on a capital project—expansion, renovation, or new construction of museum space.
Museum facility management is a vital part of running a museum, but can involve special challenges that even knowledgeable facility managers have not encountered before. The target audience for this book is both museum administrators who need to learn more about facility management and facility managers who are stepping into the museum environment for the first time. This book fills a gap in museum administration literature by providing best practices guidance that can be used to increase efficiency, save money, and improve the guest experience. Special attention is paid to: -Strategic planning for cultural facilities, -Special event preparations, -Implementing sustainability initiatives, -Predictive and reliability centered maintenance (RCM), -Environmental controls for collections conservation, and -Training for maintenance and operations personnel.
Architectural heritage is now recognised to be of great importance to the historical identity of a region, town or nation. In order to take care of that heritage, we need to look beyond borders and share experiences and knowledge regarding heritage preservation. This book contains papers covering the latest advances in this field, presented at the twelfth and latest in a series of now-biennial conferences that began in 1989.The series is recognised as the most important conference on the topic. It covers such topics as Heritage architecture and historical aspects, Regional architecture, Preservation of archaeological sites, Maritime heritage, Heritage masonry buildings, Adobe restorations, Wooden structures, Structural issues and restoration, Seismic vulnerability and vibrations, Assessment, retrofitting and reuse of heritage buildings, Surveying and monitoring, Material characterisation and problems, Simulation and modelling, New techniques and materials, Non-destructive techniques, Experimental validation and verification, Performance and maintenance, Environmental damage. Social and economic aspects, and Guidelines, codes and regulations.
This book elaborates on different aspects of the decision making process concerning the management of climate risk in museums and historic houses. The goal of this publication is to assist collection managers and caretakers by providing information that will allow responsible decisions about the museum indoor climate to be made. The focus is not only on the outcome, but also on the equally important process that leads to that outcome. The different steps contribute significantly to the understanding of the needs of movable and immovable heritage. The decision making process to determine the requirements for the museum indoor climate includes nine steps: Step 1. The process to make a balanced decision starts by clarifying the decision context and evaluating what is important to the decision maker by developing clear objectives. In Step 2 the value of all heritage assets that are affected by the decision are evaluated and the significance of the building and the movable collection is made explicit. Step 3. The climate risks to the moveable collection are assessed. Step 4: Those parts of the building that are considered valuable and susceptible to certain climate conditions are identified. Step 5. The human comfort needs for visitors and staff are expressed. Step 6: To understand the indoor climate, the building physics are explored. Step 7. The climate specifications derived from step 3 to 5 are weighed and for each climate zone the optimal climate conditions are specified. Step 8: Within the value framework established in Step 1, the options to optimize the indoor climate are considered and selected. Step 9: All options to reduce the climate collection risks are evaluated by the objectives established in Step 1.
With its wide spectrum of data, case studies, monitoring, and experimental and numerical simulation techniques, the multidisciplinary approach of material, environmental, and computer science applied to the conservation of cultural heritage offers several opportunities for the heritage science and conservation community to map and monitor state-of-the-art knowledge on natural and human-induced climate change impacts on cultural heritage—mainly constituted by the built environment—in Europe and Latin America. Geosciences’ Special Issue titled “Preservation of Cultural Heritage and Resources Threatened by Climate Change” was launched to take stock of the existing but still fragmentary knowledge on this challenge, and to enable the community to respond to the implementation of the Paris agreement. These 10 papers exploit a broad range of data derived from preventive conservation monitoring conducted indoors in museums, churches, historical buildings, or outdoors in archeological sites and city centers. Case studies presented in the papers focus on a well-assorted sample of decay phenomena occurring on heritage materials (e.g., surface recession and biomass accumulation on limestone, depositions of pollutant on marble, salt weathering on inorganic building materials, and weathering processes on mortars in many local- to regional-scale study areas in the Scandinavian Peninsula, the United Kingdom, Belgium, France, Italy, Greece, and Panama). Besides monitoring, the methodological approaches showcased include, but are not limited to, original material characterization, decay product characterization, and climate and numerical modelling on material components for assessing environmental impact and climate change effects.
Conservation scientists in museums and galleries have a clear understanding of the damage that light can inflict on an object, but what of the designers that create exhibitions to display these precious items? Light for Arts Sake provides a basis for a level of professional expertise for lighting practice in museums. Rather than portraying conservation and display as having diametrically opposed objectives, the central concept is that the interaction of light and art media is the source for both the visual experience and the degradation of the artwork. Optimal solutions derive from understanding and controlling the interaction process, and the need is for the level of understanding among lighting professionals to be brought closer to that found among conservation scientists.
Author David Saunders, former keeper of conservation and scientific research at the British Museum, explores how to balance the conflicting goals of visibility and preservation under a variety of conditions. Beginning with the science of how light, color, and vision function and interact, he proceeds to offer detailed studies of the impact of light on a wide range of objects, including paintings, manuscripts, textiles, bone, leather, and plastics. With analyses of the effects of light on visibility and deterioration, Museum Lighting provides practical information to assist curators, conservators, and other museum professionals in making critical decisions about the display and preservation of objects in their collections.
Light plays a crucial role in mediating relationships between people, things, and spaces, yet lightscapes have been largely neglected in archaeology study. This volume offers a full consideration of light in archaeology and beyond, exploring diverse aspects of illumination in different spatial and temporal contexts from prehistory to the present.